Normal and higher strength hull structural steels

(1979) (Rev.1 1986) (Rev. 2 1995 v.2.1) (Rev.3 June 2000) (Rev.4 May 2001) (Rev.5 July 2002) (Rev.6 May 2004) (Rev.7 Apr 2008) (Corr.1 Feb 2009) (Rev.8 Apr 2014) Normal and higher strength hull structural steels 1. Scope 1.1 These requirements apply to weldable normal and higher strength hot-rolled steel plates, wide flats, sections and bars intended for use in hull construction. 1.2 The requirements are primarily intended to apply to steel products with a thickness as follows: For steel plates and wide flats; - All Grades: Up to 100mm in thickness For sections and bars; - All Grades: Up to 50mm in thickness For greater thickness certain variations in the requirements may be allowed or required in particular cases after consideration of the technical circumstances involved. 1.3 Provision is made for four grades of normal strength steel based on the impact test requirements. For higher strength steels provision is made for three strength levels (315, 355 and 390 N/mm 2 ) each subdivided into four grades based on the impact test temperature. 1.4 Steels differing in chemical composition, deoxidation practice, conditions of supply and mechanical properties may be accepted, subject to the special approval of the Classification Society. Such steels are to be given a special designation. 1.5 These requirements also apply to normal and higher strength Corrosion Resistant steels when such steel is used as the alternative means of corrosion protection for cargo oil tanks as specified in the performance standard MSC.289 (87) of Regulation 3-11, Part A-1, Chapter II-1 of the SOLAS Convention (Corrosion protection of cargo oil tanks of crude oil tankers). Corrosion Resistant steels as defined within this UR, are steels whose corrosion resistance performance in the bottom or top of the internal cargo oil tank is tested and approved to satisfy the requirements in MSC.289 (87) in addition to other relevant requirements for hull structural steels, structural strength and construction. It is not intended that such steels be used for corrosion resistant applications in other areas of a vessel that are outside of those specified in the performance standard MSC.289 (87) of Regulation 3-11, Part A-1, Chapter II-1 of the SOLAS Convention. These requirements apply to plates, wide flats, sections and bars in all grades up to a maximum thickness of 50 mm. Note: 1. Changes introduced in Rev.8 are to be uniformly implemented by IACS Societies on ships contracted for construction on or after 1 July 2015 and when the application for certification of steel plates is dated on or after 1 July 2015. 2. The contracted for construction date means the date on which the contract to build the vessel is signed between the prospective owner and the shipbuilder. For further details regarding the date of contract for construction, refer to IACS Procedural Requirement (PR) No. 29. Page 1 of 40 IACS Req. 1979/Rev.8 2014

2. Approval 2.1 All materials are to be manufactured at works which have been approved by the Classification Society for the type and grade of steel which is being supplied. The suitability of each grade of steel for forming and welding is to be demonstrated during the initial approval tests at the steelworks. Approval of the steel works is to follow a scheme given in the Appendix A. For the steels intended for high heat input welding over 50kJ/cm, the approval of the manufacturer is to follow a scheme given in the Appendix B. For steels intended for a corrosion resistant designation, the approval of the manufacturer is to additionally follow the scheme given in Appendix C. 2.2 It is the manufacturer s responsibility to assure that effective process and production controls in operation are adhered to within the manufacturing specifications. Where control imperfection inducing possible inferior quality of product occurs, the manufacturer is to identify the cause and establish a countermeasure to prevent its recurrence. Also, the complete investigation report is to be submitted to the Surveyor. For further use, each affected piece is to be tested to the Surveyor s satisfaction. The frequency of testing for subsequent products offered may be increased to gain confidence in the quality at the discretion of the Society. 2.3 When steel is not produced at the works at which it is rolled, a certificate is to be supplied to the Surveyor at the rolling mill stating the process by which it was manufactured, the name of the manufacturer who supplied it, the number of the cast from which it was made and the ladle analysis. The Surveyor is to have access to the works at which the steel was produced. Note: 1. The attention of the users must be drawn to the fact that when fatigue loading is present, the effective fatigue strength of a welded joint of higher strength steel may not be greater than that of a welded joint in normal strength steels. 2. Before subjecting steels produced by thermo-mechanical rolling to further heating for forming or stress relieving, or using high heat-input welding, special consideration must be given to the possibility of a consequent reduction in mechanical properties. 3. Method of Manufacture 3.1 Steel is to be manufactured by the basic oxygen, electric furnace or open hearth processes or by other processes specially approved by the Classification Society. 3.2 The deoxidation practice used for each grade is to comply with the appropriate requirements of Tables 1 and 2. 3.3 The rolling practice applied for each grade is to comply with the appropriate condition of supply of Tables 4 and 5. The definitions of applicable rolling procedures and the schematic diagrams are given as follows: (i) As Rolled, AR This procedure involves the rolling of steel at high temperature followed by air cooling. The rolling and finishing temperatures are typically in the austenite recrystallization Page 2 of 40 IACS Req. 1979/Rev.8 2014

region and above the normalising temperature. The strength and toughness properties of steel produced by this process are generally less than steel heat treated after rolling or than steel produced by advanced processes. (ii) Normalising, N Normalising involves heating rolled steel above the critical temperature, Ac3, and in the lower end of the austenite recrystallization region followed by air cooling. The process improves the mechanical properties of as rolled steel by refining the grain size. (iii) Controlled Rolling, CR (Normalizing Rolling, NR): A rolling procedure in which the final deformation is carried out in the normalising temperature range, resulting in a material condition generally equivalent to that obtained by normalising. (iv) Quenching and Tempering, QT Quenching involves a heat treatment process in which steel is heated to an appropriate temperature above the Ac3 and then cooled with an appropriate coolant for the purpose of hardening the microstructure. Tempering subsequent to quenching is a process in which the steel is reheated to an appropriate temperature not higher than the Ac1 to restore toughness properties by improving the microstructure. (v) Thermo-Mechanical Rolling, TM (Thermo-Mechanical Controlled Processing, TMCP): This is a procedure which involves the strict control of both the steel temperature and the rolling reduction. Generally a high proportion of the rolling reduction is carried out close to the Ar3 temperature and may involve the rolling in the dual phase temperature region. Unlike controlled rolled (normalised rolling) the properties conferred by TM (TMCP) cannot be reproduced by subsequent normalising or other heat treatment. The use of accelerated cooling on completion of TM-rolling may also be accepted subject to the special approval of the Society. The same applies for the use of tempering after completion of the TM-rolling. (vi) Accelerated Cooling, AcC Accelerated cooling is a process, which aims to improve mechanical properties by controlled cooling with rates higher than air cooling immediately after the final TM-rolling operation. Direct quenching is excluded from accelerated cooling. The material properties conferred by TM and AcC cannot be reproduced by subsequent normalising or other heat treatment. Where CR and TM with/without AcC are applied, the programmed rolling schedules are to be verified by the Classification Society at the time of the steel works approval, and are to be made available when required by the attending Surveyor. On the manufacturer s responsibility, the programmed rolling schedules are to be adhered to during the rolling operation. Refer to the above 2.2. To this effect, the actual rolling records are to be reviewed by the manufacturer and occasionally by the Surveyor. When deviation from the programmed rolling schedules or normalizing or quenching and tempering procedures occurs, the manufacturer shall take further measures required in the above 2.2 to the Surveyor s satisfaction. Page 3 of 40 IACS Req. 1979/Rev.8 2014

Schematic Diagrams of Thermo-Mechanical and Conventional Processes Notes: AR: As Rolled N: Normalizing CR(NR): Controlled Rolling (Normalizing Rolling) QT: Quenching and Tempering TM: Thermo-Mechanical Rolling (Thermo-Mechanical Controlled Process) R: Reduction (*): Sometimes rolling in the dual-phase temperature region of austenite and ferrite AcC: Accelerated Cooling 4. Chemical Composition 4.1 The chemical composition of samples taken from each ladle of each cast is to be determined by the manufacturer in an adequately equipped and competently staffed laboratory and is to comply with the appropriate requirements of Tables 1 and 2. For steel plates and wide flats over 50 mm thick, slight deviations in the chemical composition may be allowed as approved by the Classification Society. 4.2 The manufacturer's declared analysis will be accepted subject to occasional checks if required by the Surveyor. Page 4 of 40 IACS Req. 1979/Rev.8 2014

Table 1 Chemical composition and deoxidation practice for normal strength steels Grade A B D E Deoxidation Practice For t 50 mm Any method except rimmed steel (1) For t > 50 mm Killed For t 50 mm Any method except rimmed For t > 50 mm Killed For t 25 mm Killed For t > 25 mm Killed and fine grain treated Killed and fine grain treated Chemical Composition % (ladle samples) (4) (7) (8) Carbon plus 1/6 of the manganese content is not to exceed 0.40% C max. 0.21 (2) 0.21 0.21 0.18 Mn min. 2.5 x C 0.80 (3) 0.60 0.70 Si max. 0.50 0.35 0.35 0.35 P max. 0.035 0.035 0.035 0.035 S max. 0.035 0.035 0.035 0.035 Al (acid soluble min) - - 0.015 (5) (6) 0.015 (6) Notes: t = thickness 1. Grade A sections up to a thickness of 12.5 mm may be accepted in rimmed steel subject to the special approval of the Classification Society. 2. Max. 0.23% for sections. 3. When Grade B steel is impact tested the minimum manganese content may be reduced to 0.60%. 4. When any grade of steel is supplied in the thermo-mechanically rolled condition variations in the specified chemical composition may be allowed or required by the Classification Society. 5. For Grade D steel over 25 mm thick. 6. For Grade D steel over 25 mm thick and Grade E steel the total aluminium content may be determined instead of acid soluble content. In such cases the total aluminium content is to be not less than 0.020%. A maximum aluminium content may also be specified by the Classification Society. Other suitable grain refining elements may be used subject to the special approval of the Classification Society. 7. The Classification Society may limit the amount of residual elements which may have an adverse effect on the working and use of the steel, e.g. copper and tin. 8. Where additions of any other element have been made as part of the steelmaking practice, the content is to be indicated. Page 5 of 40 IACS Req. 1979/Rev.8 2014

Table 2 Grade (1) Chemical composition and deoxidation practice for higher strength steels A32 A36 A40 D32 D36 D40 E32 E36 E40 F32 F36 F40 Deoxidation Practice killed and fine grain treated Chemical Composition % (ladle samples) (5) (7) C max. 0.18 0.16 Mn 0.90 1.60 (2) 0.90 1.60 Si max. 0.50 0.50 P max. 0.035 0.025 S max. 0.035 0.025 Al (acid soluble min) 0.015 (3) (4) (3) (4) 0.015 Nb 0.02 0.05 (4) ) total: 0.02 0.05 (4) ) V 0.05 0.10 (4) ) 0.12 0.05 0.10 (4) ) total: 0.12 max. Ti max. 0.02 ) max. 0.02 ) Cu max. 0.35 0.35 Cr max. 0.20 0.20 Ni max. 0.40 0.80 Mo max. 0.08 0.08 N max. - 0.009 (0.012 if Al is present) Carbon Equivalent (6) Notes: 1. The letter H may be added either in front or behind the grade mark e.g. HA 32 or AH 32. 2. Up to a thickness of 12.5 mm the minimum manganese content may be reduced to 0.70%. 3. The total aluminium content may be determined instead of the acid soluble content. In such cases the total aluminim content is to be not less than 0.020%. 4. The steel is to contain aluminium, niobium, vanadium or other suitable grain refining elements, either singly or in any combination. When used singly the steel is to contain the specified minimum content of the grain refining element. When used in combination, the specified minimum content of a fine graining element is not applicable. 5. When any grade of higher strength steel is supplied in the thermo-mechanically rolled condition variations in the specified chemical composition may be allowed or required by the Classification Society. 6. When required, the carbon equivalent value is to be calculated from the ladle analysis using the following formula. Mn Cr + Mo + V Ni + Cu Ceq = C + + + (%) 6 5 15 This formula is applicable only to steels which are basically of the carbon-manganese type and gives a general indication of the weldability of the steel. 7. Where additions of any other element have been made as part of the steelmaking practice, the content is to be indicated. 4.3 For TM (TMCP) steels the following special requirements apply: (i) (ii) The carbon equivalent value is to be calculated from the ladle analysis using the following formula and to comply with the requirements of Table 3; Mn Cr + Mo + V Ni + Cu Ceq = C + + + (%) 6 5 15 The following formula (cold cracking susceptibility) may be used for evaluating weldability instead of the carbon equivalent at the discretion of the Classification Society; Page 6 of 40 IACS Req. 1979/Rev.8 2014

Si Mn Cu Ni Cr Mo V Pcm = C + + + + + + + + 5B % 30 20 20 60 20 15 10 In such cases the cold cracking susceptibility value required may be specified by the Classification Society. Table 3 Carbon equivalent for higher strength steels up to 100 mm in thickness produced by TM Grade Carbon Equivalent, max. (%) (1) t 50 50 < t 100 A32, D32, E32, F32 0.36 0.38 A36, D36, E36, F36 0.38 0.40 A40, D40, E40, F40 0.40 0.42 Notes: t: thickness (mm) (1) It is a matter for the manufacturer and shipbuilder to mutually agree in individual cases as to whether they wish to specify a more stringent carbon equivalent. 5. Condition of Supply 5.1 All materials are to be supplied in a condition complying with the appropriate requirements of Tables 4 and 5. Table 4 Condition of supply for normal strength steels (1) Grades Thickness Condition of Supply A 50 mm Any > 50 mm 100 mm Normalized, controlled rolled or thermomechanically rolled (2) B 50 mm Any > 50 mm 100 mm Normalized, controlled rolled or thermomechanically rolled (2) D 35 mm Any > 35 mm 100 mm Normalized, controlled rolled or thermomechanically rolled (3) E 100 mm Normalized or thermo-mechanically rolled (3) Notes: (1) These conditions of supply and the impact test requirements are summarised in Table 8. (2) Subject to the special approval of the Classification Society, Grades A and B steel plates may be supplied in the as rolled condition - see 11.13.2 (ii). (3) Subject to the special approval of the Classification Society, sections in Grade D steel may be supplied in the as rolled condition provided satisfactory results are consistently obtained from Charpy V-notch impact tests. Similarly sections in Grade E steel may be supplied in the as rolled or controlled rolled condition. The frequency of impact tests is to be in accordance with.13.2 (ii) and.13.3 (iii) respectively. Page 7 of 40 IACS Req. 1979/Rev.8 2014

Table 5 Condition of supply for higher strength steels (1) Grades Grain Refining Elements Used Thickness Condition of supply A32 A36 A40 D32 D36 D40 E32 E36 E40 F32 F36 F40 Nb and/or V Al alone or with Ti Any Nb and/or V Al alone or with Ti Any Any Any Any 12.5 mm > 12.5 mm 100 mm 20 mm > 20 mm 35 mm > 35 mm 100 mm 12.5 mm > 12.5 mm 50 mm > 50 mm 100 mm 12.5 mm > 12.5 mm 100 mm 20 mm > 20 mm 25 mm > 25 mm 100 mm 50 mm > 50 mm 100 mm 50 mm Any Normalized, controlled rolled or thermomechanically rolled (3) Any Any, as rolled subject to special approval of the Classification Society (2) Normalized, controlled rolled or thermomechanically rolled (3) Any Normalized, controlled rolled or thermomechanically rolled Normalized, thermo-mechanically rolled or quenched and tempered Any Normalized, controlled rolled or thermomechanically rolled (3) Any Any, as rolled subject to special approval of the Classification Society (2) Normalized, controlled rolled or thermomechanically rolled (3) Normalized, controlled rolled or thermomechanically rolled Normalized, thermo-mechanically rolled or quenched and tempered Normalized or thermo-mechanically rolled (3) > 50 mm 100 mm Normalized, thermo-mechanically rolled 50 mm Normalized, thermo-mechanically rolled or quenched and tempered > 50 mm 100 mm Normalized, thermo-mechanically rolled or quenched and tempered 50 mm Normalized, thermo-mechanically rolled or quenched and tempered (4) > 50 mm 100 mm Normalized, thermo-mechanically rolled or quenched and tempered Notes: (1) These conditions of supply and the requirements for impact tests are summarised in Table 9. (2) The frequency of impact tests is to be in accordance with.13.2 (ii). (3) Subject to the special approval of the Classification Society, sections in Grades A32, A36, D32 and D36 steels may be supplied in the as rolled condition provided satisfactory results are consistently obtained from Charpy V-notch impact tests. Similarly sections in Grades E32 and E36 steels maybe supplied in the as rolled or controlled rolled condition. The frequency of impact tests is to be in accordance with.13.2 (ii) and.13.2 (iii) respectively. (4) Subject to the special approval of the Classification Society, sections in Grades F32 and F36 steels may be supplied in the controlled rolled condition. The frequency of impact tests is to be in accordance with.13.3 (iii). Page 8 of 40 IACS Req. 1979/Rev.8 2014

6. Mechanical Properties 6.1 For tensile test either the upper yield stress (ReH) or where ReH cannot be determined, the 0.2 percent proof stress (Rp 0.2) is to be determined and the material is considered to comply with the requirements if either value meets or exceeds the specified minimum value for yield strength (Re). 6.2 The results obtained from tensile tests are to comply with the appropriate requirements of Tables 6 and 7. Table 6 Mechanical properties for normal strength steels Grade Yield Strength ReH (N/mm 2 ) min Tensile Strength Rm (N/mm 2 ) Elongation (5.65 S 0) A 5 (%) Test Temp. C Impact Test Average Impact Energy (J) min t 50 50 < t 70 70 < t 100 Long (3) Trans (3) Long (3) Trans (3) Long (3) Trans (3) A +20 - - 34 (5) 24 (5) 41 (5) 27 (5) B 400/520 0 27 (4) 20 (4) 34 24 41 27 235 (1) 22 (2) D -20 27 20 34 24 41 27 E -40 27 20 34 24 41 27 Notes: t: thickness (mm) (1) For all thicknesses of Grade A sections the upper limit for the specified tensile strength range may be exceeded at the discretion of the Classification Society. (2) For full thickness flat tensile test specimens with a width of 25 mm and a gauge length of 200mm the elongation is to comply with the following minimum values: Thickness mm > 5 > 10 > 15 > 20 > 25 > 30 > 40 5 10 15 20 25 30 40 50 Elongation % 14 16 17 18 19 20 21 22 (3) See paragraph.6.3. (4) Charpy V-notch impact tests are generally not required for Grade B steel with thickness of 25 mm or less. (5) Impact tests for Grade A over 50 mm thick are not required when the material is produced using fine grain practice and furnished normalised. TM rolling may be accepted without impact testing at the discretion of the Society. Page 9 of 40 IACS Req. 1979/Rev.8 2014

Table 7 Grade Yield Strength ReH (N/mm 2 ) min Mechanical properties for higher strength steels Tensile Strength Rm (N/mm 2 ) Elongation (5.65 S 0) A 5 (%) Test Temp. C Impact Test Average Impact Energy (J) min t 50 50 < t 70 70 < t 100 Long (2) Trans (2) Long (2) Trans (2) Long (2) Trans (2) A32 0 31 (3) 22 (3) 38 26 46 31 D32-20 31 22 38 26 46 31 315 440/570 22 (1) E32-40 31 22 38 26 46 31 F32-60 31 22 38 26 46 31 A36 0 34 (3) 24 (3) 41 27 50 34 D36-20 34 24 41 27 50 34 355 490/630 21 (1) E36-40 34 24 41 27 50 34 F36-60 34 24 41 27 50 34 A40 0 39 26 46 31 55 37 D40-20 39 26 46 31 55 37 390 510/660 20 (1) E40-40 39 26 46 31 55 37 F40-60 39 26 46 31 55 37 t: thickness (mm) Notes: (1) For full thickness flat tensile test specimens with a width of 25mm and a gauge length of 200 mm the elongation is to comply with the following minimum values: Thickness (mm) Grade > 5 > 10 > 15 > 20 > 25 > 30 > 40 5 10 15 20 25 30 40 50 Elongation % A32, D32, E32 & F32 14 16 17 18 19 20 21 22 A36, D36, E36 & F36 13 15 16 17 18 19 20 21 A40, D40, E40 & F40 12 14 15 16 17 18 19 20 (2) See paragraph.6.3. (3) For Grades A32 and A36 steels a relaxation in the number of impact tests for acceptance purposes may be permitted by special agreement with the Classification Society provided that satisfactory results are obtained from occasional check tests. 6.3 Minimum average energy values are specified for Charpy V-notch impact test specimens taken in either the longitudinal or transverse directions (see.12.2). Generally only longitudinal test specimens need to be prepared and tested except for special applications where transverse test specimens may be required by the purchaser or the Classification Society. Transverse test results are to be guaranteed by the supplier. The tabulated values are for standard specimens 10 mm x 10 mm. For plate thicknesses less than 10 mm, impact test may be waived at the discretion of the Classification Society or subsize specimens, as specified in UR W2, may be used. 6.4 The average value obtained from one set of three impact tests is to comply with the requirements given in Tables 6 and 7. One individual value only may be below the specified average value provided it is not less than 70% of that value. Page 10 of 40 IACS Req. 1979/Rev.8 2014

6.5 Generally, impact tests are not required when the nominal plate thickness is less than 6 mm. 7. Freedom from Defects 7.1 The steel is to be reasonably free from segregations and non-metallic inclusions. The finished material is to have a workmanlike finish and is to be free from internal and surface defects prejudicial to the use of the material for the intended application. 7.2 The acceptance criteria for surface finish and procedures for the repair of defects, as detailed in Recommendation, No 12, "Guidance for the Surface Finish of Hot Rolled Steel Plates and Wide Flats" are to be observed. 8. Tolerances 8.1 Unless otherwise agreed or specially required the thickness tolerances in Unified Requirement W13 "Allowable under thickness tolerances of steel plates and wide flats" are applicable. 9. Identification of Materials 9.1 The steelmaker is to adopt a system for the identification of ingots, slabs and finished pieces which will enable the material to be traced to its original cast. 9.2 The Surveyor is to be given full facilities for so tracing the material when required. 10. Testing and Inspection 10.1 Facilities for Inspection The manufacturer is to afford the Surveyor all necessary facilities and access to all relevant parts of the works to enable him to verify that the approved process is adhered to, for the selection of test materials, and the witnessing of tests, as required by the Rules, and for verifying the accuracy of the testing equipment. 10.2 Testing Procedures The prescribed tests and inspections are to be carried out at the place of manufacture before dispatch. The test specimens and procedures are to be in accordance with Unified Requirement W2 Test Specimens and Mechanical Testing Procedures for Materials. All the test specimens are to be selected and stamped by the Surveyor and tested in his presence, unless otherwise agreed. 10.3 Through Thickness Tensile Tests If plates and wide flats with thickness of 15 mm and over are ordered with through thickness properties, the through thickness tensile test in accordance with Unified Requirement W14 Steel Plates and Wide Flats with Improved Through Thickness Properties is to be carried out. Page 11 of 40 IACS Req. 1979/Rev.8 2014

10.4 Ultrasonic Inspection If plates and wide flats are ordered with ultrasonic inspection, this is to be made in accordance with an accepted standard at the discretion of the Classification Society. 10.5 Surface Inspection and Dimensions Surface inspection and verification of dimensions are the responsibility of the steel maker. The acceptance by the Classification Society s Surveyor shall not absolve the steel maker from this responsibility. 11. Test Material 11.1 Definitions (a) Piece: the term "piece" is understood to mean the rolled product from a single slab, billet or ingot if this is rolled directly into plates, sections or bars. (b) Batch: a number of similar pieces presented as a group for acceptance tests. 11.2 Test Samples (a) All material in a batch presented for acceptance tests is to be of the same product form e.g. plates, flats, sections, etc. from the same cast and in the same condition of supply. (b) The test samples are to be fully representative of the material and, where appropriate, are not to be cut from the material until heat treatment has been completed. (c) The test specimens are not to be separately heat treated in any way. (d) Unless otherwise agreed the test samples are to be taken from the following positions: (i) Plates and flats with a width 600 mm. The test samples are to be taken from one end at a position approximately midway between the axis in the direction of the rolling and the edge of the rolled product (see Fig. 1). Unless otherwise agreed the tensile test specimens are to be prepared with their longitudinal axes transverse to the final direction of rolling. (ii) Flats with a width < 600 mm, bulb flats and other sections. The test samples are to be taken from one end at a position approximately one third from the outer edge (see Figs. 2, 3 and 4) or in the case of small sections, as near as possible to this position. In the case of channels, beams or bulb angles, the test samples may alternatively be taken from a position approximately one quarter of the width from the web centre line or axis (see Fig. 3). The tensile test specimens may be prepared with their longitudinal axes either parallel or transverse to the final direction of rolling. (iii) Bars and other similar products. The test samples are to be taken so that the longitudinal axes of the test specimens are parallel to the direction of rolling and are as near as possible to the following for non-cylindrical sections, at one third of the half diagonal from the outside, for cylindrical sections, at one third of the radius from the outside (see Fig. 6). Page 12 of 40 IACS Req. 1979/Rev.8 2014

12. Mechanical Test specimens 12.1 Tensile Test Specimens. The dimensions of the tensil test specimens are to be in accordance with Unified Requirement, W2. Generally for plates, wide flats and sections flat test specimens of full product thickness are to be used. Round test specimens may be used when the product thickness exceeds 40 mm or for bards and other similar products. Alternatively for small sizes of bars, etc. test specimens may consist of a suitable length of the full cross section of the product. 12.2 Impact Test Specimens. The impact test specimens are to be of the Charpy V-notch type cut with their edge within 2 mm from the as rolled surface with their longitudinal axes either parallel (indicated Long in Table 6 & 7) or transverse (indicated "Trans" in Tables 6 & 7) to the final direction of rolling of the material. The notch is to be cut in a face of the test specimen which was originally perpendicular to the rolled surface. The position of the notch is not to be nearer than 25 mm to a flame cut or sheared edge (see also.6.3). Where the product thickness exceeds 40 mm, the impact test specimens are to be taken with their longitudinal axis at a quarter thickness position. Page 13 of 40 IACS Req. 1979/Rev.8 2014

13. Number of Test Specimens 13.1 Number of Tensile Tests. For each batch presented, except where specially agreed by the Classification Society, one tensile test is to be made from one piece unless the weight of finished material is greater than 50 tonnes or fraction thereof. Additionally tests are to be made for every variation of 10 mm in the thickness or diameter of products from the same cast. 13.2 Number of Impact Tests (except for Grades E, E32, E36, E40, F32, F36 and F40), see Tables 8 & 9. (i) Except where otherwise specified or specially agreed by the Classification Society, for each batch presented, at least one set of three Charpy V-notch test specimens is to be made from one piece unless the weight of finished material is greater than 50 tonnes, in which case one extra set of three test specimens is to be made from a different piece from each 50 tonnes or fraction thereof. When steel plates except for Grade A steel over 50 mm in thickness is supplied in the controlled rolled condition, the frequency of impact test is to be made from a different piece from each 25 tonnes or fraction thereof. (ii) For steel plates of Grades A40 and D40 with thickness over 50 mm in normalized or TM condition, one set of impact test specimens is to be taken from each batch of 50 tonnes or fraction thereof. For those in QT condition, one set of impact test specimens is to be taken from each length as heat treated. (iii) When, subject to the special approval of the Classification Society, material is supplied in the as rolled condition, the frequency of impact tests is to be increased to one set from each batch of 25 tonnes or fraction thereof. Similarly Grade A steel over 50 mm in thickness may be supplied in the as rolled condition. In such case one set of three Charpy V-notch test specimens is to be taken from each batch of 50 tonnes or fraction thereof. (iv) The piece selected for the preparation of the test specimens is to be the thickest in each batch. 13.3 Number of Impact Tests (Grades E, E32, E36, E40, F32, F36 and F40). (i) For steel plates supplied in the normalised or TM condition one set of impact test specimens is to be taken from each piece. For quenched and tempered steel plates one set of impact test specimens is to be taken from each length as heat treated. (ii) For sections one set of impact tests is to be taken from each batch of 25 tonnes or fraction thereof. (iii) When, subject to the special approval of the Classification Society, sections other than Grades E40 and F40 are supplied in the as rolled or controlled rolled condition, one set of impact tests is to be taken from each batch of 15 tonnes or fraction thereof. (iv) For (ii) and (iii) above the piece selected for the preparation of the test specimens is to be the thickest in each batch. Page 14 of 40 IACS Req. 1979/Rev.8 2014

14. Retest Procedures 14.1 When the tensile test from the first piece selected in accordance with.13.1 fails to meet the requirements re-test requirements for tensile tests are to be in accordance with UR W2. 14.2 If one or both of the additional tests referred to above are unsatisfactory, the piece is to be rejected, but the remaining material from the same batch may be accepted provided that two of the remaining pieces in the batch selected in the same way, are tested with satisfactory results. If unsatisfactory results are obtained from either of these two pieces then the batch of material is to be rejected. 14.3 Re-test requirements for Charpy impact tests are to be in accordance with UR W2. 14.4 When the initial piece, representing a batch, gives unsatisfactory results from the additional Charpy V-notch impact tests referred to above, this piece is to be rejected but the remaining material in the batch may be accepted provided that two of the remaining pieces in the batch are tested with satisfactory results. If unsatisfactory results are obtained from either of these two pieces then the batch of material is to be rejected. The pieces selected for these additional tests are to be the thickest remaining in the batch. 14.5 If any test specimen fails because of faulty preparation, visible defects or (in the case of tensile test) because of fracturing outside the range permitted for the appropriate gauge length, the defective test piece may, at the Surveyors discretion, be disregarded and replayed by an additional test piece of the same type. 14.6 At the option of the steelmaker, when a batch of material is rejected, the remaining pieces in the batch may be resubmitted individually for test and those pieces which give satisfactory results may be accepted. 14.7 At the option of the steelmaker, rejected material may be resubmitted after heat treatment or reheat treatment, or may be resubmitted as another grade of steel and may then be accepted provided the required tests are satisfactory. 14.8 In the event of any material proving unsatisfactory during subsequent working or fabrication, such material may be rejected, notwithstanding any previous satisfactory testing and/or certification. 15. Branding 15.1 Every finished piece is to be clearly marked by the maker in at least one place with the Classification Society's brand and the following particulars: (i) Unified identification mark for the grade steel (e.g. A, A36). (ii) Steels which have been specially approved by the Classification Society and which differ from these requirements (see.1.4) are to have the letter "S" after the above identification mark (e.g. A36S, ES). (iii) When required by the Classification Society, material supplied in the thermomechanically controlled process condition is to have the letters TM added after the identification mark (e.g. E36 TM). (iv) Name or initials to identify the steelworks. (v) Cast or other number to identify the piece. (vi) If required by the purchaser, his order number or other identification mark. Page 15 of 40 IACS Req. 1979/Rev.8 2014

15.2 Steel plates that have complied with the requirements for corrosion resistant steel will be identified by adding a corrosion designation to the unified identification mark for the grade of steel. The corrosion resistant steel is to be designated according to its area of application as follows: - Lower surface of strength deck and surrounding structures; RCU - Upper surface of inner bottom plating and surrounding structures; RCB - For both strength deck and inner bottom plating; RCW Example of designation: A36 TM RCB Z35 15.3 The above particulars, but excluding the manufacturer's name or trade mark where this is embossed on finished products are to be encircled with paint or otherwise marked so as to be easily recognisable. 15.4 Where a number of light materials are securely fastened together in bundles the manufacturer may, subject to the agreement of the Classification Society, brand only the top piece of each bundle, or alternatively, a firmly fastened durable label containing the brand may be attached to each bundle. 15.5 In the event of any material bearing the Classification Society's brand failing to comply with the test requirements, the brand is to be unmistakably defaced by the manufacturer. 16. Documentation 16.1 The Surveyor is to be supplied with the number of copies as required by the Classification Society, of the test certificates or shipping statements for all accepted materials. The Classification Society may require separate documents of each grade of steel. These documents are to contain, in addition to the description, dimensions, etc., of the material, at least the following particulars: (i) Purchaser's order number and if known the hull number for which the material is intended. (ii) Identification of the cast and piece including, where appropriate, the test specimen number. (iii) Identification of the steelworks. (iv) Identification of the grade of steel. (v) Ladle analysis (for elements specified in Tables 1 & 2). (vi) For steel with a corrosion resistant steel designation the weight percentage of each element added or intentionally controlled for improving corrosion resistance. (vii) Condition of supply when other than as rolled i.e. normalised, controlled rolled or thermomechanically rolled. (viii) State if rimming steel has been supplied for grade A sections, up to 12.5 mm thick. (ix) Test Results 16.2 Before the test certificates or shipping statements are signed by the Surveyor, the manufacturer is required to furnish him with a written declaration stating that the material has been made by an approved process and that it has been subjected to and has withstood satisfactory the required tests in the presence of the Surveyor or his authorized deputy. The name of the Classification Society is to appear on the test certificate. The following form of Page 16 of 40 IACS Req. 1979/Rev.8 2014

declaration will be accepted if stamped or printed on each test certificate or shipping statement with the name of the steelworks and initialled for the makers by an authorized official: "We hereby certify that the material has been made by an approved process and has been satisfactorily tested in accordance with the Rules of the Classification Society." Page 17 of 40 IACS Req. 1979/Rev.8 2014

Table 8 Required condition of supply and number of impact tests for normal strength steels Remarks: 1. Condition of Supply A Any N Normalised Condition CR Controlled Rolled Condition TM Thermo-Mechanical rolling AR* As Rolled Condition subject to special approval of the Classification Society CR* Controlled Rolled Condition subject to special approval of the Classification Society 2. Number of Impact Tests One set of impact tests is to be taken from each batch of the "specified weight" in ( ) or fraction thereof. 3. See Note (5) of Table 6. Page 18 of 40 IACS Req. 1979/Rev.8 2014

Table 9 Required condition of supply and number of impact tests for higher strength steels Page 19 of 40 IACS Req. 1979/Rev.8 2014

Table 9 Required condition of supply and number of impact tests for higher strength steels (cont d) Remarks: (1) Condition of Supply A - Any N - Normalized Condition CR - Controlled Rolled Condition TM - Thermo-Mechanical Rolling QT - Quenched and Tempered Condition AR* - As Rolled Condition subject to the special approval of the Classification Society CR* - Controlled Rolled Condition subject to the special approval of the Classification Society (2) Number of Impact Tests One set of impact tests is to be taken from each batch of the specified weight in ( ) or fraction thereof. For grades A32 and A36 steels a relaxation in the number of impact tests may be permitted. (See Note(3) of Table 7.) Page 20 of 40 IACS Req. 1979/Rev.8 2014

Appendix A. Manufacturing Approval Scheme of Hull Structural Steels A1. Manufacturing Approval Scheme of Semi Finished Products for Hull Structural Steels 1. Scope of application This document specifies, as given in.2.1, the scheme for the approval of the manufacturing process of semi-finished products such as ingots, slabs, blooms and billets for the structural steels. The manufacturing approval scheme is valid for verifying the manufacturer s capability to provide satisfactory products stably under effective process and production controls in which is required in.2.2. 2. Approval application 2.1 Documents to be submitted The manufacturer has to submit to the Society, request of approval, proposed approval test program (see 3.1) and general information relevant to: a) Name and site address of the manufacturer, location of the workshops, general indications relevant to the background, dimension of the works, estimated total annual production of finished products for shipbuilding and for other applications, as deemed useful. b) Organization and quality: organizational chart staff employed staff employed and organization of the quality control department qualification of the personnel involved in activities related to the quality of the products certification of compliance of the quality system with IS0 9001 or 9002, if any approval certificates already granted by other Classification Societies, if any c) Manufacturing facilities flow chart of the manufacturing process origin and storage of raw materials storage of finished products equipment for systematic control during fabrication d) Details of inspections and quality control facilities details of system used for identification of materials at the different stages of manufacturing equipment for chemical analyses and relevant calibration procedures list of quality control procedures e) Type of products (ingots, slabs, blooms, billets); types of steel (normal or higher strength), range of thickness and aim material properties as follows: range of chemical composition and aim analyses, including grain refining, micro alloying and residual elements, for the various grades of steel; if the range of chemical Page 21 of 40 IACS Req. 1979/Rev.8 2014

composition depends on thickness and supply condition, the different ranges are to be specified, as appropriate aim maximum carbon equivalent according to IIW formula aim maximum Pcm content for higher strength grades with low carbon content C < 0.13 % production statistics of the chemical composition and, if available at rolling mills, mechanical properties (ReH, Rm, A% and KV). The statistics are intended to demonstrate the capability to manufacture the steel products in accordance with the requirements. f) Steelmaking steel making process and capacity of furnace/s or converter/s raw material used deoxidation and alloying practice desulphurisation and vacuum degassing installations, if any casting methods: ingot or continuous casting. In the case of continuous casting, information relevant to type of casting machine, teeming practice, methods to prevent re-oxidation, inclusions and segregation control, presence of electromagnetic stirring, soft reduction, etc., is to be provided as appropriate. ingot or slab size and weight ingot or slab treatment: scarfing and discarding procedures g) Approval already granted by other Classification Societies and documentation of approval tests performed. 2.2 Documents to be submitted for changing the approval conditions The manufacturer has to submit to the Society the documents required in 2.1 together with the request of changing the approval conditions, in the case of the following a) through c): a) Change of the manufacturing process (steel making process, casting method, steel making plant, caster) b) Change of the thickness range (dimension) c) Change of the chemical composition, added element, etc. However, where the documents are duplicated by the ones at the previous approval for the same type of product, part or all of the documents may be omitted except the approval test program (see 3.1). 3. Approval tests 3.1 Extent of the approval tests The extent of the test program is specified in 3.6, it may be modified on the basis of the preliminary information submitted by the manufacturer. In particular a reduction of the indicated number of casts, product thicknesses and types to be tested or complete suppression of the approval tests may be accepted by the Society taking into account: a) Approval already granted by other Classification Societies and documentation of approval tests performed. b) Types of steel to be approved and availability of long term statistic results of chemical properties and of mechanical tests performed on rolled products. Page 22 of 40 IACS Req. 1979/Rev.8 2014

c) Change of the approval conditions. On the other hand, an increase of the number of casts and thicknesses to be tested may be required in the case of newly developed types of steel or manufacturing processes. 3.2 Approval test program Where the number of tests differs from those shown in 3.6, the program is to be confirmed by the Society before the tests are carried out. 3.3 Approval survey The approval tests are to be witnessed by the Surveyor at the manufacturer s plant and the execution of the plant inspection in operation may be required by the Surveyor during the visit for the approval. If the testing facilities are not available at the works, the tests are to be carried out at recognized laboratories. 3.4 Selection of the test product For each type of steel and for each manufacturing process (e.g. steel making, casting), one test product with the maximum thickness and one test product with the minimum thickness to be approved are in general to be selected for each kind of product (ingots, slabs, blooms/billets). The selection of the casts for the test product is to be based on the typical chemical composition, with particular regard to the specified Ceq or Pcm values and grain refining micro-alloying additions. 3.5 Position of the test samples The test samples are to be taken, unless otherwise agreed, from the product (slabs, blooms, billets) corresponding to the top of the ingot, or, in the case of continuous casting, a random sample. 3.6 Tests on base material 3.6.1 Type of tests The tests to be carried out for the approval of the manufacturing process of semi-finished products are: - Chemical analysis. The analysis is to be complete and is to include micro alloying elements. - Sulphur prints. In addition, for initial approval and for any upgrade of the approval, the Society will require full tests indicated in Appendix A2.3 to be performed at rolling mill on the minimum thickness semi finished product. In case of a multi-caster work, full tests on finished products shall be carried out for one caster and reduced tests (chemical analysis and sulphur print) for the others. The selection of the caster shall be based on the technical characteristics of the casters to be evaluated on Page 23 of 40 IACS Req. 1979/Rev.8 2014

case by case basis to be performed at rolling mill on products manufactured from the minimum thickness semi finished product. 3.6.2 Test specimens and testing procedure The following tests and procedures apply: a) Chemical analyses Both the ladle and product analyses are to be reported. In general the content of the following elements is to be checked: C, Mn, Si, P, S, Ni, Cr, Mo, Al, N, Nb, V, Cu, As, Sn, Ti and, for steel manufactured from electric or open-hearth furnace, Sb and B. b) Sulphur prints are to be taken from product edges which are perpendicular to the axis of the ingot or slab. These sulphur prints are to be approximately 600 mm long taken from the centre of the edge selected, i.e. on the ingot centreline, and are to include the full product thickness. 4. Results All the results, which are in any case to comply with the requirements of the Rules, are evaluated for the approval; depending on the results, particular limitations or testing conditions, as deemed appropriate, may be specified in the approval document. All the information required under Appendix A2.2, applicable to the products submitted to the tests, is to be collected by the manufacturer and put in the dossier which will include all the results of the tests and operation records relevant to steel making, casting and, when applicable, rolling and heat treatment of the test products. 5. Certification 5.1 Approval Upon satisfactory completion of the survey, approval is granted by the Society. On the approval certificate the following information is to be stated: Type of products (ingots, slabs, blooms, billets) Steelmaking and casting processes Thickness range of the semi-finished products Types of steel (normal or higher strength) It is also to be indicated that the individual users of the semi finished products are to be approved for the manufacturing process of the specific grade of rolled steel products they are going to manufacture with those semi finished products. 5.2 List of approved manufacturers The approved manufacturers are entered in a list containing the types of steel and the main conditions of approval. Page 24 of 40 IACS Req. 1979/Rev.8 2014

6. Renewal of approval The validity of the approval is to be a maximum of five years. Renewal can be carried out by an audit and assessment on the result of satisfactory survey during the period*. Where for operational reasons, the renewal audit falls outside the period of approval, the manufacturer will still be considered as approved if agreement to this audit date is made within the original period of approval, in this instance if successful, the extension of approval will be back dated to the original renewal date. Manufacturers who have not produced the approved grades and products during the period between renewals may be required to either carry out approval tests or, on the basis of results of production of similar grades of products, at the discretion of the Society, be reapproved. 7. Reconsideration of the approval During the period of validity the approval may be reconsidered in the following cases: a) in service failures, traceable to product quality b) non conformity of the product revealed during fabrication and construction c) discovered failure of the Manufacturer s quality system d) changes brought by the Manufacturer, without preliminary agreement of the Society, to the extent of the approval defined at the time of the approval e) evidence of major non conformities during testing of the products. * The provision for renewal of approval is also to be applied to all grades and products which were approved by the Society prior to an implementation of revision 4 of this UR W 11 regardless of the validity of certificate in existing approvals. Such renewal is to be completed within five years after the revision 4 becomes effective. Page 25 of 40 IACS Req. 1979/Rev.8 2014